File: instantiationExpressionErrors.types

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=== tests/cases/conformance/types/typeParameters/typeArgumentLists/instantiationExpressionErrors.ts ===
declare let f: { <T>(): T, g<U>(): U };
>f : { <T>(): T; g<U>(): U; }
>g : <U>() => U

// Type arguments in member expressions

const a1 = f<number>;  // { (): number; g<U>(): U; }
>a1 : { (): number; g<U>(): U; }
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

const a2 = f.g<number>;  // () => number
>a2 : () => number
>f.g<number> : () => number
>f.g : <U>() => U
>f : { <T>(): T; g<U>(): U; }
>g : <U>() => U

const a3 = f<number>.g;  // <U>() => U
>a3 : <U>() => U
>f<number>.g : <U>() => U
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>g : <U>() => U

const a4 = f<number>.g<number>;  // () => number
>a4 : () => number
>f<number>.g<number> : () => number
>f<number>.g : <U>() => U
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>g : <U>() => U

const a5 = f['g']<number>;  // () => number
>a5 : () => number
>f['g']<number> : () => number
>f['g'] : <U>() => U
>f : { <T>(): T; g<U>(): U; }
>'g' : "g"

// `[` is an expression starter and cannot immediately follow a type argument list

const a6 = f<number>['g'];  // Error
>a6 : boolean
>f<number>['g'] : boolean
>f<number : boolean
>f : { <T>(): T; g<U>(): U; }
>number : any
>['g'] : string[]
>'g' : "g"

const a7 = (f<number>)['g'];
>a7 : <U>() => U
>(f<number>)['g'] : <U>() => U
>(f<number>) : { (): number; g<U>(): U; }
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>'g' : "g"

// An `<` cannot immediately follow a type argument list

const a8 = f<number><number>;  // Relational operator error
>a8 : boolean
>f<number><number> : boolean
>f<number : boolean
>f : { <T>(): T; g<U>(): U; }
>number : any
><number> : number
> : any

const a9 = (f<number>)<number>;  // Error, no applicable signatures
>a9 : { g<U>(): U; }
>(f<number>)<number> : { g<U>(): U; }
>(f<number>) : { (): number; g<U>(): U; }
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

// Type arguments with `?.` token

const b1 = f?.<number>;  // Error, `(` expected
>b1 : number
>f?.<number> : number
>f : { <T>(): T; g<U>(): U; }

const b2 = f?.<number>();
>b2 : number
>f?.<number>() : number
>f : { <T>(): T; g<U>(): U; }

const b3 = f<number>?.();
>b3 : number
>f<number>?.() : number
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

const b4 = f<number>?.<number>();  // Error, expected no type arguments
>b4 : number
>f<number>?.<number>() : number
>f<number> : { (): number; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

// Instantiation expression and binary operators

declare let g: (<T>(x: T) => T) | undefined;
>g : (<T>(x: T) => T) | undefined
>x : T

const c1 = g<string> || ((x: string) => x);
>c1 : (x: string) => string
>g<string> || ((x: string) => x) : (x: string) => string
>g<string> : ((x: string) => string) | undefined
>g : (<T>(x: T) => T) | undefined
>((x: string) => x) : (x: string) => string
>(x: string) => x : (x: string) => string
>x : string
>x : string

const c2 = g<string> ?? ((x: string) => x);
>c2 : (x: string) => string
>g<string> ?? ((x: string) => x) : (x: string) => string
>g<string> : ((x: string) => string) | undefined
>g : (<T>(x: T) => T) | undefined
>((x: string) => x) : (x: string) => string
>(x: string) => x : (x: string) => string
>x : string
>x : string

const c3 = g<string> && ((x: string) => x);
>c3 : ((x: string) => string) | undefined
>g<string> && ((x: string) => x) : ((x: string) => string) | undefined
>g<string> : ((x: string) => string) | undefined
>g : (<T>(x: T) => T) | undefined
>((x: string) => x) : (x: string) => string
>(x: string) => x : (x: string) => string
>x : string
>x : string

// Parsed as function call, even though this differs from JavaScript

const x1 = f<true>
>x1 : true
>f<true>(true) : true
>f : { <T>(): T; g<U>(): U; }
>true : true

(true);
>true : true

// Parsed as relational expressions

const r1 = f < true > true;
>r1 : boolean
>f < true > true : boolean
>f < true : boolean
>f : { <T>(): T; g<U>(): U; }
>true : true
>true : true

const r2 = f < true > +1;
>r2 : boolean
>f < true > +1 : boolean
>f < true : boolean
>f : { <T>(): T; g<U>(): U; }
>true : true
>+1 : 1
>1 : 1

const r3 = f < true > -1;
>r3 : boolean
>f < true > -1 : boolean
>f < true : boolean
>f : { <T>(): T; g<U>(): U; }
>true : true
>-1 : -1
>1 : 1

// All of the following are parsed as instantiation expressions

const x2 = f<true>
>x2 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

true;
>true : true

const x3 = f<true>;
>x3 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

true;
>true : true

const x4 = f<true>
>x4 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

if (true) {}
>true : true

const x5 = f<true>
>x5 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

let yy = 0;
>yy : number
>0 : 0

const x6 = f<true>
>x6 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

interface I {}

let x10 = f<true>
>x10 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

this.bar()
>this.bar() : void
>this.bar : () => void
>this : typeof globalThis
>bar : () => void

let x11 = f<true>
>x11 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

function bar() {}
>bar : () => void

let x12 = f<true>
>x12 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

class C {}
>C : C

let x13 = f<true>
>x13 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

bar()
>bar() : void
>bar : () => void

let x14 = f<true>
>x14 : { (): true; g<U>(): U; }
>f<true> : { (): true; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }
>true : true

void bar()
>void bar() : undefined
>bar() : void
>bar : () => void

class C1 {
>C1 : C1

    static specialFoo = f<string>
>specialFoo : { (): string; g<U>(): U; }
>f<string> : { (): string; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

    static bar = 123
>bar : number
>123 : 123
}

class C2 {
>C2 : C2

    public specialFoo = f<string>
>specialFoo : { (): string; g<U>(): U; }
>f<string> : { (): string; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

    public bar = 123
>bar : number
>123 : 123
}

class C3 {
>C3 : C3

    private specialFoo = f<string>
>specialFoo : { (): string; g<U>(): U; }
>f<string> : { (): string; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

    private bar = 123
>bar : number
>123 : 123
}

class C4 {
>C4 : C4

    protected specialFoo = f<string>
>specialFoo : { (): string; g<U>(): U; }
>f<string> : { (): string; g<U>(): U; }
>f : { <T>(): T; g<U>(): U; }

    protected bar = 123
>bar : number
>123 : 123
}

// Repro from #49551

const enum MyVer { v1 = 1, v2 = 2 }
>MyVer : MyVer
>v1 : MyVer.v1
>1 : 1
>v2 : MyVer.v2
>2 : 2

let ver = 21
>ver : number
>21 : 21

const a = ver < (MyVer.v1 >= MyVer.v2 ? MyVer.v1 : MyVer.v2)
>a : boolean
>ver < (MyVer.v1 >= MyVer.v2 ? MyVer.v1 : MyVer.v2) : boolean
>ver : number
>(MyVer.v1 >= MyVer.v2 ? MyVer.v1 : MyVer.v2) : MyVer
>MyVer.v1 >= MyVer.v2 ? MyVer.v1 : MyVer.v2 : MyVer
>MyVer.v1 >= MyVer.v2 : boolean
>MyVer.v1 : MyVer.v1
>MyVer : typeof MyVer
>v1 : MyVer.v1
>MyVer.v2 : MyVer.v2
>MyVer : typeof MyVer
>v2 : MyVer.v2
>MyVer.v1 : MyVer.v1
>MyVer : typeof MyVer
>v1 : MyVer.v1
>MyVer.v2 : MyVer.v2
>MyVer : typeof MyVer
>v2 : MyVer.v2